Soundhead



Oct. 29, 1935; F. J. LooMls ET Al. 2,019,147

SOUNDHEAD Fned oct. 14, 1952 7 Sheng-sheet 1 FRED J. LOOM\5 ELLWO D j REYNOLDS ./urvfe/L/ 'ATroRNEY Oct. 29, 1935. F. J. LooMls Er A l. 2,019,147

soUNDHEAYD Filed oct. 14, 1952 '7 sheets-sheet 2 INVENToRs FRED J. LOOM\5 BY 552.20 REYNOLDS ATroRNEY Oct. 29, 1935. |=4 J, Looms Er AL 2,019,147

SOUNDHEAD Filed 001;. 14, 1932 7 Sheets-Sheet 5 ENTORS FR J. LOOM ELLWOOD W EY D5 ATTORNEY Oct. 29, 1935. r. .1. LooMls Er AL soUNDHEAD Filed Oct. 14, 1932 7 Sheets-Sheet 4 INVENTORS FRED J. LOOMIS BY E D@ REYNOLDS Oct. 29, 1935. F. J. LooMls ET AL SOUNDHEAD 7 Sheets-Sheet 5 Filed Oct. 14, 1952 0t 29 1935. F. J. LoOMls Er Al. 2,019,147

SOUNDHEAD Filed oct. 14, 1932 7 sheets-sheet fs INVENTORS v FREDJLOOWS BYsLLwon REYNOLDS ATTORNEY Oct. 29, 1935. F. J. Loomis Er AL 2,019,147

SOUNDHEAD n Filed oct. 14, 1952 v sheets-sheet v INVENTORS FRED J. LOOK/115 ELLWUUD W. EYNOLDS ATTORNEY Patented Oct. 29, 1935 SOUNDHEAD Fred J. Loomis, Haddoneld, N. J.. and Ellwood W. Reynolds, Drexel Hill, Pa., anignors to Radio Corporation of America, a corporation of Delaware i Application October 14, 1932, Serial No. 637,952

19 Claims. (Cl. 179-1003) 'l'his invention relates to soundheads such as those adapted to be used in combination with motion picture apparatus for the purpose of producing talking motion pictures. It will be apparent, however, that its utility is by no means limited to such use.

It has for many years been customary in the talking picture art to provide a sound reproducing mechanism commonly known as a soundhead which is adapted for attachment to a motion picture projector and which ls provided with a drive mechanism common to both the soundhead and the projector so that a single lm carrying both the picture and sound records can be run consecutively through the two instrumentalities and sound can be reproduced from the film in exact synchronism with the pictures projected from the same nlm. Y

The soundhead ordinarily includes an exciter lamp, an optical system and a. photoelectric cell, although any other desirable form of sound takeoi! may be used. The sound record moving mechanism may be mounted inside or exterior to the soundhead. Considerable diillculty has heretoiore been encountered in the past due to the necessity for moving the illm at an absolutely uniform speed past the sound reproduction point. the production of such uniform movement being rendered dimcult because of the necessity of mov- -ing the nlm by means of sprockets'cooperating with the sprocket holes therein, and because of irregularities in the operation of the driving mechanism and its attendant gearing.

Apparatus capable of moving the film or sound record at a uniform speed past the reproduction point under these conditions is disclosed in an application of Ellwood W. Reynolds, Serial No. 602,274 filed March 31, 1932. The present applis cation relates to an improved soundhead similar in some respects to that disclosed in the aforesaid application but including additional features which have been found to be of great practical utility.

One object of the invention is the production oi a soundhead which is adapted to cooperate Another object of the invention is the produc-v tion of a soundhead having a minimum number of moving parts.

Another object of the invention is the production of a soundhead which will permit large manufacturing tolerances and at the same time produce a device having an extremely high degree of precision. l:

Another object of the invention is to provide a roller which will rmly hold the iilm in contact with the supporting drum at the reproduction point and guide it in a straight line laterally as it passes around the drum. l0

Another object of the invention is to provide a guide roller which will laterally guide any given standard width of film regardless oi the shrinkage thereof.

f Another object of the invention is to provide a il guide roller whose frictional resistance to the lm roller is small and whose variations to the resistance are negligible whereby it affects to the least possible extent the motion of the nlm drum.

Another object of the invention is to provide a 20 lamp socket which will gently yet positively hold the exciter lamp in proper alignment with the optical system. y

Another object of the invention is to provide a lamp socket which can be instantly and easily 25 removed or replaced in exact position in the machine, thus allowing a burnt out exciter lamp to be instantly replaced by a new one without requiring readjustment of the optical system.

Another object of the invention is to provide a so lamp socket having mechanical characteristics which give it suihcient exibility to prevent microphonic noises from the lamp, and at the same time sufiicient stillness to hold the filament in correct position.`

Another object of the invention is to provide an extremely simple and dependable nlm stripper.

Another object of the invention is to provide an improved pad roller for retaining the nlm upon the driving sprockets which is held denitely in 40 position but which is easily adjustable.

Another object of the invention is to provide a soundhead which will magnetically and electrostatically shield within itself the transformer 46 used in conjunction with the photoelectric cell.

Another object of the invention is to provide a soundhead wherein the driving motor is built into the soundhead.

Another object of the invention is to provide a m soundhead with the motor built thereinto with means for preventing stray magnetic fields and induced currents from the motor from permeatving the soundhead.

Another object of the invention is to provide means for manually actuating the driving mechanism for purposes of adjustment, etc.

In the drawings,

Fig. 1 is a view from the front or operating side with the doors open or removed.

Fig. 2 is a view from the rear of the soundhead with the damping unit removed.

Fig. 3 is a schematic diagram of the arrangement of the mechanical portions of the apparatus.

Fig. 4 is a perspective view of the optical system.

Fig. 5 is a sectional view of the film drum unit showing the damping mechanism.

Figs. 6 and 'I show alternative forms of the lm Figs. 8, 9 and 10 show details of the pressure roller which holds the lm upon the drum.

Figs. l1 and 12 show the adjustable socket for the exciter lamp.

Figs. 13 to 16 show the details of the pad'rollers, .and

Fig. 17 shows the iilm stripper.

We will first give a general description of the apparatus with particular reference to Figs. l to 5, and then specific descriptions of the several details thereof.

The soundhead includes a body member or casing I which is attached to and supported by the stand 2, which stand is of a type more or less customarily used for supporting motion picture projectors. Upon the body of the soundhead is mounted the motion picture projector indicated at 3 in Fig. land through which the nim F passes to the soundhead.

At the bottom ofthe soundhead is mounted the usual take-up reel 4. At the righthand end of the soundhead is mounted the driving motor 5 which serves to drive the soundhead and the motion picture projector in synchronism and which is provided with the usual supply cable 8 and the control switch 1. 'I'he shell of the motor 5 is fitted in an appropriate manner, hereinafter described in more detail, in the body of the soundhead I and the shaft of the motor extends directly into the soundhead to drive the mechanism thereof.

Inasmuch as there are no parts of the mechanism available by which the operator may rotate it by hand, a knob B is provided upon the outer end of the motor shaft for the purpose of rotating the mechanism slowly as, for example, to ascertain adjustment of various parts, etc. The motor shell which is subjected to strong magnetic fields is separated from the cast-iron body of the soundhead I by an aluminum ring 9. 'This aluminum ring effects a considerable magnetic separation between the shell of the motor 5 and the soundhead body I and also serves to short-circuit any eddy currents in the shell 5, and thereby prevents the setting up of magnetic fields in the body I of the soundhead from the effects of the motor.

'I'his prevents noises from being produced in the the reproduction point and the gear Il drives the gear libre I5, which in turn drives the holdback sprocket I3. 'Ihe hold-back sprocket I 3 the reproduction point.

prevents irregularities in the motion in the takeup reel from being carried back to the nlm at Themain shaft of the machine also carries the gear I4 .(see Fig. 3) which drives the nbre gear I6 of the motion pic- 5 ture projector. It will be apparent that the worm drive Il, II, due to the high speed of the motor and the momentum of the amature thereof, and the irreversible action of the worm, not only causes the sprocket I2 to be driven at a perfectly uniform speed but also prevents irregularities in the action of the motion picture machine from reacting through the gears I6 and Il' upon the sprocket I2. The gearing runs in Aoil in an oiltight compartment. When the projector and 'soundhead assembly is tilted downwardly, as is necessary in many theatres, there is a tendency foroil to run out of this compartment along the motor shaft. We accordingly provide an oiltight seal around the shaft at the partition between the said compartment and the motor, at the point marked 5 in Fig. 3.

A partition I'I is provided in the body of the soundhead adjacent the end opposite the motor, and in the compartment thus formed,is located 25 the exciter lamp 20 which is mounted in the socket shown in detail in Figs. 11 and l2. Doors are hinged at opposite ends of the casing and meet at the edge of the partition II which carries upon its opposite faces the catches II for retaining the lo doors in closed position.

The optical system indicated at 35 collects light from the exciter lamp 20 and focuses it upon the film F at the reproductionpoint P in the form of a ne bright line. Light diverging from this focus after passing the film F is rendered appreclably less diverging and is deiiected by the optical element 36 which is a prismatic convex lens and is deected thereby to the photcell 31, which Y.- in turn is enclosed within the housing` 31'. Cur- 0 rent from the photocell passes to the transformer 40, which as shown in Fig. 2, is housed in a recess in thev back of the soundhead and this recess is closed by a heavy metallic member 4I. The transformer is preferably mounted, as shown, on 45 sponge rubber, felt, or other vibration absorbing material, and the entire enclosure thereof within the middle of the soundhead serves as an eective magnetic and electrostatic shield. The output from this transformer is carried in the usual man- 50 ner to the amplifiers and other auxiliary equipment.

In accordance with the aforesaid Reynolds application above referred to, the motion of the lm is rendered uniform at the reproduction 55 point vP through the cooperation with the device shown in Fig. 5 for damping out the vibrations.

As shown in detail in Fig. 4, the soundtrack portion of the film overhangs the edge of the drum 50 by which it is supported, extending otherwise unsupported into the path of the light, as described and claimed in Cawley Patent 1,825,438, patented September 29, 1931, and this wheel is driven by the film as described and claimed in Cawley Patent 1,825,439 of the same date.

As shown in Fig. 5, the drum 5I! is made integral with the shaft 5I and this shaft carries upon its other end the light hollow casing 52 provided with a collar 53. 'I'his casing is preferably made of magnesium or of an aluminum alloy, or the like, 70 in order' to secure the minimum possible weight; and the casing is filled with an appropriate fluid 5l, such as oil.v

We have found magnesium alloy to be particularly desirable since it is both very light and extremely rigid. and it is capable of being very accurately machined so that a uniform and predetermined cooperative relation may be secured between the casing andthe member 00.

Mounted upon the hub of the casing is the ball-bearing supporting the massive member 00 which rotates freely on the ball-bearing. This member 00 is not a nywheel in any ordinary senseoftheternsinceitisnotintegralwith the shaft 0| and does not directly contro'. the rotation thereof. 'I'he member 00. as described 00 large mass thereof'relaviscosity of the fluid 0I. Thereafter when there is any change in the rotational velocityofthedrum00.themassivemember00hasa in velocity and exerts a counter-torque opposing such change in velocity through the viscous medium Il. Since there is no direct mechanical connection and no elasticity providing a restitutional torque between these parts, any such controlling action of the member 00 is critically damped and oscillation is impossible.

As further described in said Reynolds application, full advantage is taken of this property of the mechanical damper by mounting the shaft 0| upon ball-bearings 01 to provide a minimum vof friction. 'lhe drum 00 and the shaft 0| are preferably in the form of a single forging. and a shoulder 00 is formed adjacent the drum 00. Oneofthebeangsflisplacedfirmlyagainst this shoulder. the sleeve 00 of predetermined length is then slipped over the shaft against the bearing, the second bearing 01 is placed upon theshaft,thenthecollar "serving tnspacethe dampingmember 0! from the bearing l1. and then the damping unit, the entire assembly being held rigidly in position by the nut 0| which is placed upon the threaded end of the shaft.

It will be apparent that this provides an extremely accurate and economical mode of assembling this imit, which is required to be extremely accurate, as any inaccuracies in its con-'- struction will cause corresponding inaccuracies in reproduction of sound. At the present film speeds of eighteen inches per second and commercial sound reproduction to frequencies of 10,000 cycles per second and over, an irregularity of motion of the periphery of the drum 50 of the order of l/l0.000 of an inch is readily noticeable and the construction here described succeeds in economically attaining that degree of accuracy.

As described in the said Reynolds application and as shown in Fig. 1, the film F passing'outwardly from the projector 0 is maintained in contact with the drum 50 by the preasureroller indicated generally at 10. It will be noted that this pressure roller is in such a position against the drum 00 that the i'ilm is exed through a considerable angle in passing from the projector to the surface of the roller 00; and likewise, where the film over sprocket l2 it is pressed against the back rather than the top ofthe sprocket by the pad roller 00 in the position shown in dotted lines at 00'. I'he pad roller l 00 causesthe film to tend toward avertical position at the sprocket I2 and, due to the elasticity of the film, a fairly large and springy loop is formed above the construction I2 at the point 02 while a corresponding loop is formed above the drum 00 at the point 00. Due to the fact that the drum 00 rotates very freely in the ball-bears ings before described. the natwise elasticity of thenlmatl! issuicienttocausetherotation of the drum, and since any tendency toward irregularity of motion of the drum 00 is driven in the manner befe described, the iacp n. likem wise serves to absorb any irregularities which mightbeimpartedtothenlmbythesprocket struction provides a unique arrangement of parts which is capable of securing the desired 35 result in a highly satisfactory manner. The new and important features described below Ycooperate to improve the construction and operation of the apparatm.

Pressure roller 4 It is necessary, in the foregoing construction. that the pressure roller indicated generally at 10 shall hold the iilm ilrmly against the film drum without slippage: that it rotate so freely as to 45 avoid any interference with the operation of the drum; and that .it guide the iilmlaterally to maintain it exactly in position between the optical system and the photocell. This portion of the device is shown in Pigs. 8 to 10 inclusive. 5o The roller surface |00 is formed from a ne grade of felt, and after being placed upon the combined spindle and clamping ring |0| is fastened rigidly thereupon by the member |02 and thereafter ground to an accurate circular form. 55 The member |0| is mounted upon a shaft |00 which extends entirely through the rotating portions of the unit. This shaft is carried in ball-- bearings |00 and |00 which are mounted in a bracket hereinafter described and protected by co the collar members |00. Mounted rmly upon the shaft and abutting against the collar thereof is the guide member |01 which serves to guide the edgeof the film adjacent the soundtrack. The member |01 is separated from the adjacent ballc5 bearing |00 by the spacer member |00 which, with the assistance of the nut |00, holds the member |01 firmly against the shoulder on the shaft |00.

The' member |0|l has fitted firmly thereupon a 70 member i|0 which corresponds in general appearance and function to the member |01. but the entire unit comprising the members |00, |0l, |02 and ||0 is slidable longitudinally on the 'shaft |00 and ispressed toward the member |01 75 sulting from the tapping of a hole, or the threadingoftheendoi'thepintotintothetapped hole. The collarv |23 iits snugly against the center plate, and against this collar bears the spring Y|20 which iilts, as shown, into a recess in the member il! and thrust the member toward the outer end of the pin and against the member |20. The member |25 is threaded upon the outer end of the pin I2I so that it may be adjusted iongitudinauy thereon, is split and provided with a lock-screw |26 as shown. Lateral adjustment of the side guides |01 and I I0 relative to the roller l. is accomplished by loosening the screw |20 and rotating the member until the guides |01 and III are in the proper positions when the member |25 is again locked by tightening the screw |20.

It is, oi' course, necessary to lock the pressure roller in operative position against the roller Il, and to remove it from that position. Locking is accomplished by means oi the bolt |21. which is retained by an appropriate aperture in the center plate, or by an adjustable plate secured thereupon. 'I'he bolt |21 is urged toward the center plate by the spring |28 and may be pulled outwardly by the knob |20. A thumb piece |30 is alsoprovided. To open the pressure roller the knob |29 is pulled outwardly, whereby the bolt |21 is removed from its aperture. and the pressure roller is permitted -to drop back, while to close it into operating position the ly is merely rotated by pressure of the member |00 until thel bolt |21 snaps into the appropriate aperture, when theentire unit is locked in opuating position. In operating position the roller is raised slightly against the pressure of the spring |20',

which then maintains it'in contact with the illm upon the iilm drum.

Film drum wehavefouna chaman mm isopmacver drum is shown slightly "crown in a manne somewhat similar to the crowning oi a pulle for a nat belt, but with the center of the crow near enough to the outer edge of the drum t causethenlmtorunwiththeproperamoun oi overhang. 'I'hese latter two forms are useiu but at present we prefer the forms shown in Fig.

1 since the operation thereof seems to be inde pendent of the dierent shrinkages occurring a the middle and the edges of the film.

yExciter lamp socket The construction o! the exciter lamp socket i shown in detail in Figs. ll and 12.

It is necessary, in photophonographic appa ratus, that the exciter lamp be held rigidly i1 position, that it be adjustable vertically to aligi it with the optical system. that it be provide with adequate and non-microphonic contacta that' it be held firmly against rotation durin vertical adjustment, and that it be instantly re i placeable by another pre-adjusted lamp. W

have attained all these results by the constructioi shown.

A base plate 200 oi' insulating material is pro vided, which is attached to the center plate o the soundhead as shown in Fig. 1. Projectim from this base-plate are two round pins 20| ani 202 provided with collars 203 and 200. The pin are insulated from each other by the base-plate and the feed-wires 20S (Fig. 1) are electricall; connected to the pins.

A body member 208 is provided, having a1 aperture extending therethrough adapted to co operate with the pin 20|. v A block of insulatim material 201 is attached to the bottom of thl member 200 and is provided with a groove at it bottom adapted to cooperate with the pin 20| It will be apparent from Fig. 12 that substantiall: the entire weight of the unit lies to one sid| of the vertical plane of the pins 20|, 202 and thl insulating block 201 is thereby pressed ilrml: against the rod 202. A contact spring 200 i carried by the block 201 and presses ilrml: against the opposite side of the rod or pin 202.

When the members 200 and 201. forming i unit, are slid upon the rods 20| and'202, the: can be slid toward the base-member 200 unti they strike the collars 200 and 20L-and thea collars thereby accurately determine the posi tion of the socket `laterally oi the soundhead while the rods determine the position and orientation thereof in all other planes.

The outer end oi' the rod 202 is, as shown made slightly larger than the remainder thereof so that the pressure of the spring 200 thereupor tends to maintain the body member 208 rmh against the collar 203.

The rear portion of the base-member 200 consists of a felt pad 200', which serves to absorb any vibration which might otherwise be imparted to the socket from the mechanism of the soundhead or projector and produce microphonic noises from the lamp.

The base oi -the lamp itself is held in the chuck member 200, which is provided with yieldable jaws at its top. The lower portion of the chuck is round and is vertically slidable in a hole in the member 206 in which it i'lts snugly. Slots 2| 0 are provided in the chuck jaws, and the pins extending from the sides of the lamp base fit into these slots and prevent rotation of the lamp y base in' the chuck. A clamping nut 2li is fitted to the upper portion of the chuck for forcing the jaws inwardly against the lamp base.

The chuck is prevented from rotating in the member 205 by the screw 2|2, which is threaded into the chuck as shown in Fig. 12 and is movable vertically in a slot as shown in Fig. 11. After the chuck has been adjusted to the proper vertical position. it is clamped by tightening the screw 2|2 against the member 206.

Vertical adjustment of the chuck is accom-V plished by rotation of the nut 2| 2. This nut, as shown in Fig. 12, ts into a recess in the member 200 and is held therein as shown in Fig. l1 by 'the screw 2I4 which fits over the collar 2|5. Since the chuck 200 is threaded to nt the nut 2|2, it will be apparent that rotation of the verticallyfixed nut will result in vertical movement of the chuck.

Within the chuck at the bottom there is provided an insulating bushing 2|0, within which a contact member 2 l1 is freely slidable, being pressed upwardly by the spring 2|0 which maintains it firmly in contact with the contact-pin on the bottom of the lamp. A connection strip 2| is attached to the bottom of the contact member 2|'I by a screw 220 and is connected to the spring 200 by a bolt 22|, thereby establishing an electrical circuit to the contact 2|1 from the rod 202, while the base of the lamp is connected to the rod 20| by the chuck and the body member 205.

A knurled knob 222 is provided by which the body member may be grasped for removal or replacement.

It will be apparent that one or more extra lamps may be adjusted in as many sockets, and if a lamp fails during operation of the apparatus, it requires but an instant to remove the lamp and socket and slide another pre-adjusted lamp into place.

A shield 223 is provided to prevent stray light.

Pad roller assembly bility that splices may be even thicker than this,

and it is therefore necessary to hold the pad rollers not only definitely but yleldably in this position. v-

It is further necessary that the rollers be lnstantly releasable for the purpose of threading the machine; and we accomplishv all these results by the construction shown.

The roller itself is indicated at 250, in Figs. 13 and 14, and is freely rotatable upon a shaft fixed in the movable arm and carrying the 5 -passes through the slot 250. The slot- 255 is arcuate in shape, and the plate 254 may be angularly adjusted by a corresponding amount about the screw 252.

Asshown in Figs. l5 and 16, both sides of the 20 plate 254 are alike, so that it may be used either right-handed" or left-handed", as rendered desirable by the location of surrounding parts.

The extreme limits of-motion of the arm 25| are determined by the ends of the arcuate recess 25` 258 into which the round pin 259 nts, the pin 259 being a "force fit" in a hole in the arm 25|. The arm is held at either end of its travel by the ball 26| and the coil spring 262. The plate 254 is provided with holes 260 into which the coil 30 spring tends to force the ball, but these holes are so located that when the pin 2501s at either end of its travel in the recess 250 the ball 25| is not quite seated in the corresponding hole, and the arm is thereby held firmly in position. Since the holding, locating, and adjusting means just described function equally well at either end of the travel of the arm 25|, either end may be used as the sprocket position; and in addition the plate 254 is vreversible as before described.

Film stripper Film sometimes has a tendency to cling to the sprocket teeth, and it is accordingly necessary to provide members extending past the teeth to a point adjacent to the surface of the sprocketl for stripping the nlm from the teeth.

Heretofore. the illin strippers have usually been formed of several parts secured together by 5o screws. We have found such constructions to be expensive and unreliable, and have accordingly devised the stripper shown in Fig. 17.

A rod 300 is provided, the round end of which is adapted to nt tightly into a hole provided therefor in the center plate of the apparatus. The other end of the rod is cut away as shown at 30| to provide a nat surface having a width substantially equal to the diameter of the rod.

A plate 302 is provided, and this is cut away .0 at 303 to nt around the sprocket teeth, the edges 304 being in close proximity to the face of the sprocket.

The plate 302 is spot-welded at 305 to the nat surface of the rod 300, thereby providing a cong5 struction which is not only less expensive than that of the prior art, but which cannot be shaken apart or out of adjustment by vibration or by the impacts of film thereagainst.

Having described the construction and opera- 'l0 tion of our apparatus and the advantages thereof;

l. A soundhead comprising a unitary casing having therein a light source, an opticall system u and a photoelectric sound reproducing means. and a removable partition extending laterally of said casing at the said optical system.- one end of said casing comprising an' end-bell of the motor therefor. f

2. A soundhead comprising a unitary casing having therein a light source, an optical system t a removable partition extending laterally of said casing at the said optical system, doors hinged at opposite ends of the said casing and meeting at the said partition, and door catches mounted upon the said partition.

4. A soundhead comprising a metallic casing, electrical sound reproducing apparatus within said casing. a transformer connected to the said electrical sound reproducing apparatus, and a separate compartment integral with said casing housing and shielding the said-transformer.

5. A soundhead comprising a metallic casing, electrical sound reproducing apparatus within said casing, a transformer connected to the said electrical sound reproducing apparatus. a separate compartment integral with said casing housing and shielding the said transformer. and vibrati -absorbing material between the walls of the compartment and the said transformer.

6. Asoundheadcomprisingacasinghousinga sormd reproducer, a motor mounted longitudinally uponthe said casing. whereby a portion of the saidcasingformsoneof theendbelisofthemotor, and gearing in co-operative relation with the shaft of said motor and housed within the said casing for driving a sound record through the said soundhead.

'1. A soundhead comprising a casing housing a soundreproducer, a motor mounted longitudinally upon tbe said casing, whereby a portion of the said casing forms one of the end bells of the motor, gearing in cli-operative relation with the shaftofsaidmotorandhousedwithinthesaid casing for driving the film through the said .soundhead, and an oil-tight seal around said shaft between said gearing and said motor.

8. A soundhead comprising a casing housing a sound reproducer, a motor mounted longitudinally upon the said casing, whereby a portion of thesaidcasingformsoneoftheendbellsofthe motor. gearing in co-operative relation with the shaftofsaidmotorandhousedwithinthesaid casingfordrivingthelmthroughthesaid soundhead, and means for manually rotating the motor shaft.

9. A soundhead comprising a casing housing a sound reproducer. a motor mounted longitudinally upon the said casing. whereby a portion of the said casing forms one of the end bells of the motor, gearing in co-operative relation with the shaft of `said motor and housed within the said casing for driving alm through the said soundhead, and a nonmagnetic ring of electrically conducting material separating the shell of the said motor from the said casing.

10. A soundhead comprising a casing housing a sound reproducer, a motor mounted longitudinallyupon thesaidcasing,wherebyaportionof thesaidcssingformsoneoftheendbellsofthe motor, gearing in co-operative relation with the shaft o! said motor and housed Within the ldd casing for driving the film through the said soundhead, and a non-magnetic ring of electrically conducting material separating the shell of the said motor from the said casing, the said ring being of suilicient thickness and cross-sectionto effectively separate the magnetic ilelds of the motor from the casing and to short-circuit eddy currents therein. it

11. Photoelectric sound reproducing apparatus comprising a drum adapted to support the illm at the reproduction point with the soundtrack portion of the film overhanging vthe edge thereof. means for directing a fine line of light upon u the soundtrack at the reproduction point, light responsive means mounted exterior to said drum at the opposite side thereof from the said reproduction point, and means including converging lens and prism elements for directing iight passg1 ing through the nlm upon the light responsive means.

12. Photophonographic apparatus comprising a smooth drum adapted to support a sound record nim with the soundtrack portion thereof overal hanging the edge of said smoothV drum, and sound reproducing means in co-operative relation to the soundtrack position, the said smooth drum being reduced in diameter beneath the other edge' ofsaidfllmtosuchanextentthattheillmissubl -stantially equally supported upon both sides of its median line.

13. Means for causing an elastic nlm to travel past a predetermined point at a uniform velocity,- comprising a rotary member for supporting the a film at the said point, means for drawing the film over the rotary member, means for maintaining the nlm curved in a free loop between the first two means, a flywheel freely and independently rotatable upon the shaft of said rotary member. 4 and a huid-filled container composed predominantly of magnesium rigidly connected to said `rotary member and enclosing the ilywheel for yieldably and aperiodically coupling the iLvwheel to the said rotary member. 4

14. Means for causing an elastic illm to travel past a predetermined point at a uniform velocity, comprising a rotary member for supporting the film at the said point, means for drawing the illm over the rotary member, means for maintaining 5 the nlm curved in a free loop between the iirst two means, a flywheel freely and independently rotatable upon the shaft of said rotary member. and a uld-lled container rigidly connected to said rotary member and enclosing the ilywheela for yieldably and aperiodically coupling the ilywheel to the said rotary member, the said container having the minimum mass consistent wi the required mechanical rigidity.

15. Means adapted to cooperate with a rotary l member for precluding or diminishing irregularities in the rotary motion thereof, comprising a circular magnesium alloy casing in co-operative rotational relation to said rotary member, a flywheel freely rotatable within the said casing. and a viscous nuid substantially nlling the space between the said casing and the said flywheel.

16. Photophonographic apparatus comprising a drum adapted to support the nlm at the reproduction point with the soundtrack portion of i the film overhanging the edge thereof, a shaft mounted upon anti-friction bearings and supporting the said drum for rotation. a ywheel freely rotatable upon the said shaft, and an oilnlled magnesium easing rigidly secured to thei .idalnttandencloaingthesaidflywheeLwherebytheilywhcelismechanicallycoupledtothe aaidshattbytheoilonlyf 17. Phottmhonogramic apparatus comprising adrumadaptedtomppmtthelmatthereproductlm point with the soundtrack portion of the iihnoverhangingtlieedgethereof.ashattmount eduponanti-trictionbearingsand supporting the aaiddrumfor rotatimaflywheel freely rotatable uponthe saidshaft and an oil-lied magnesium alloycasingrigidlysecuredtothesaidshaftand enclosing thesaid ywheel whereby the ywheel ismechanicallyupledtothesaidshattbythe dlmly,theportionofthe assemblycomprising thedrmshattandcasinghavingtheminimum pncticalrotatlonal inertia.

18 mi u m 34: mtu; comprising meanstorpullinga drecordiilmpastthe re'productlnnpoint,acentcrplatesupportingsaid ma vibration absorbing padvmounted upon saidcenterplate,abaseplate simporteduponsaid vibration absorbing pad on the opposite side thereof from the said center plate, and a pair of electrically conducting rods extending perpendicularly from said base plate for Supporting ag means, a vibration absorbing pad mounted upon 1o said center plate, a base plate supported upon said vibration absorbing padon the opposite side thereof from the said center platea pair of electrically conducting rods extending perpendicularly from said base plate, a lamp socket slidla able upon said rods, and spring means Vco-acting with one o! said rods for maintaining the said socket in operating position.

FRED J. LOOMIS.

mLwooD w. moms. zo 

